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组胺受体 2 调节树突状细胞对微生物配体的反应。

Histamine receptor 2 modifies dendritic cell responses to microbial ligands.

机构信息

Swiss Institute of Allergy and Asthma Research (SIAF), University of Zurich, Davos, Switzerland.

出版信息

J Allergy Clin Immunol. 2013 Jul;132(1):194-204. doi: 10.1016/j.jaci.2013.01.013. Epub 2013 Mar 1.

DOI:10.1016/j.jaci.2013.01.013
PMID:23465664
Abstract

BACKGROUND

The induction of tolerance and protective immunity to microbes is significantly influenced by host- and microbiota-derived metabolites, such as histamine.

OBJECTIVE

We sought to identify the molecular mechanisms for histamine-mediated modulation of pattern recognition receptor signaling.

METHODS

Human monocyte-derived dendritic cells (MDDCs), myeloid dendritic cells, and plasmacytoid dendritic cells were examined. Cytokine secretion, gene expression, and transcription factor activation were measured after stimulation with microbial ligands and histamine. Histamine receptor 2 (H₂R)-deficient mice, histamine receptors, and their signaling pathways were investigated.

RESULTS

Histamine suppressed MDDC chemokine and proinflammatory cytokine secretion, nuclear factor κB and activator protein 1 activation, mitogen-activated protein kinase phosphorylation, and T(H)1 polarization of naive lymphocytes, whereas IL-10 secretion was enhanced in response to LPS and Pam3Cys. Histamine also suppressed LPS-induced myeloid dendritic cell TNF-α secretion and suppressed CpG-induced plasmacytoid dendritic cell IFN-α gene expression. H₂R signaling through cyclic AMP and exchange protein directly activated by cyclic AMP was required for the histamine effect on LPS-induced MDDC responses. Lactobacillus rhamnosus, which secretes histamine, significantly suppressed Peyer patch IL-2, IL-4, IL-5, IL-12, TNF-α, and GM-CSF secretion in wild-type but not H₂R-deficient animals.

CONCLUSION

Both host- and microbiota-derived histamine significantly alter the innate immune response to microbes through H₂R.

摘要

背景

宿主和微生物群衍生的代谢物,如组氨酸,会显著影响微生物的耐受和保护免疫。

目的

我们试图确定组氨酸介导的模式识别受体信号转导调节的分子机制。

方法

研究了人单核细胞来源的树突状细胞(MDDC)、髓样树突状细胞和浆细胞样树突状细胞。用微生物配体和组氨酸刺激后,测量细胞因子分泌、基因表达和转录因子激活。研究了组氨酸受体 2(H₂R)缺陷小鼠、组氨酸受体及其信号通路。

结果

组氨酸抑制 MDDC 趋化因子和促炎细胞因子分泌、核因子 κB 和激活蛋白 1 激活、丝裂原活化蛋白激酶磷酸化以及幼稚淋巴细胞的 T(H)1 极化,而 IL-10 分泌则增强对 LPS 和 Pam3Cys 的反应。组氨酸还抑制 LPS 诱导的髓样树突状细胞 TNF-α分泌,并抑制 CpG 诱导的浆细胞样树突状细胞 IFN-α基因表达。H₂R 通过环磷酸腺苷和环磷酸腺苷直接激活的交换蛋白的信号转导对于组氨酸对 LPS 诱导的 MDDC 反应的影响是必需的。分泌组氨酸的鼠李糖乳杆菌显著抑制野生型而非 H₂R 缺陷动物派尔集合淋巴结中 IL-2、IL-4、IL-5、IL-12、TNF-α和 GM-CSF 的分泌。

结论

宿主和微生物群衍生的组氨酸均通过 H₂R 显著改变对微生物的固有免疫反应。

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